General formalism for calculating the thermal efficiency of thermodynamic cycles defined in a $p-V$ diagram

TL;DR

This paper introduces a universal method for calculating the thermal efficiency of any thermodynamic cycle in a $p-V$ diagram, demonstrated on various complex cycle shapes and gas models.

Contribution

It presents a general approach for efficiency calculation applicable to arbitrary cycles and gas models, including non-trivial shapes like circles and stars.

Findings

Efficient calculation of cycle efficiency for complex $p-V$ shapes.

Application to ideal gas and van der Waals gas models.

Identification of heat absorption and release segments.

Abstract

We develop a general method for calculating the thermal efficiency of arbitrary thermodynamic cycles defined in the pressure-volume ($p-V$) diagram. To demonstrate how effective our approach is, we calculate the thermal efficiency of ideal gas engines for a few non-trivial cycles in the $p-V$ diagram, including a circular shape, a heart shape, a cycloid of Ceva, and a star-shaped curve. We determine the segments along the cycle where heat is absorbed or released from the heat engine. Our method can be applied to any gas model, and, as an example, we present the results for the van der Waals gas.